# Copyright 2017 MongoDB, Inc.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

"""Test the client_session module."""
from __future__ import annotations

import asyncio
import copy
import sys
import time
from inspect import iscoroutinefunction
from io import BytesIO
from test.asynchronous.helpers import ExceptionCatchingTask
from typing import Any, Callable, List, Set, Tuple

from pymongo.synchronous.mongo_client import MongoClient

sys.path[0:0] = [""]

from test.asynchronous import (
    AsyncIntegrationTest,
    AsyncUnitTest,
    SkipTest,
    async_client_context,
    unittest,
)
from test.asynchronous.helpers import client_knobs
from test.utils_shared import (
    EventListener,
    HeartbeatEventListener,
    OvertCommandListener,
    async_wait_until,
)

from bson import DBRef
from gridfs.asynchronous.grid_file import AsyncGridFS, AsyncGridFSBucket
from pymongo import ASCENDING, AsyncMongoClient, _csot, monitoring
from pymongo.asynchronous.command_cursor import AsyncCommandCursor
from pymongo.asynchronous.cursor import AsyncCursor
from pymongo.common import _MAX_END_SESSIONS
from pymongo.errors import ConfigurationError, InvalidOperation, OperationFailure
from pymongo.operations import IndexModel, InsertOne, UpdateOne
from pymongo.read_concern import ReadConcern

_IS_SYNC = False


# Ignore auth commands like saslStart, so we can assert lsid is in all commands.
class SessionTestListener(EventListener):
    def started(self, event):
        if not event.command_name.startswith("sasl"):
            super().started(event)

    def succeeded(self, event):
        if not event.command_name.startswith("sasl"):
            super().succeeded(event)

    def failed(self, event):
        if not event.command_name.startswith("sasl"):
            super().failed(event)

    def first_command_started(self):
        assert len(self.started_events) >= 1, "No command-started events"

        return self.started_events[0]


def session_ids(client):
    return [s.session_id for s in copy.copy(client._topology._session_pool)]


class TestSession(AsyncIntegrationTest):
    client2: AsyncMongoClient
    sensitive_commands: Set[str]

    @async_client_context.require_sessions
    async def asyncSetUp(self):
        await super().asyncSetUp()
        # Create a second client so we can make sure clients cannot share
        # sessions.
        self.client2 = await self.async_rs_or_single_client()

        # Redact no commands, so we can test user-admin commands have "lsid".
        self.sensitive_commands = monitoring._SENSITIVE_COMMANDS.copy()
        monitoring._SENSITIVE_COMMANDS.clear()

        self.listener = SessionTestListener()
        self.session_checker_listener = SessionTestListener()
        self.client = await self.async_rs_or_single_client(
            event_listeners=[self.listener, self.session_checker_listener]
        )
        self.db = self.client.pymongo_test
        self.initial_lsids = {s["id"] for s in session_ids(self.client)}

    async def asyncTearDown(self):
        monitoring._SENSITIVE_COMMANDS.update(self.sensitive_commands)
        await self.client.drop_database("pymongo_test")
        used_lsids = self.initial_lsids.copy()
        for event in self.session_checker_listener.started_events:
            if "lsid" in event.command:
                used_lsids.add(event.command["lsid"]["id"])

        current_lsids = {s["id"] for s in session_ids(self.client)}
        self.assertLessEqual(used_lsids, current_lsids)

        await super().asyncTearDown()

    async def _test_ops(self, client, *ops):
        listener = client.options.event_listeners[0]

        for f, args, kw in ops:
            async with client.start_session() as s:
                listener.reset()
                s._materialize()
                last_use = s._server_session.last_use
                start = time.monotonic()
                self.assertLessEqual(last_use, start)
                # In case "f" modifies its inputs.
                args = copy.copy(args)
                kw = copy.copy(kw)
                kw["session"] = s
                await f(*args, **kw)
                self.assertGreaterEqual(len(listener.started_events), 1)
                for event in listener.started_events:
                    self.assertIn(
                        "lsid",
                        event.command,
                        f"{f.__name__} sent no lsid with {event.command_name}",
                    )

                    self.assertEqual(
                        s.session_id,
                        event.command["lsid"],
                        f"{f.__name__} sent wrong lsid with {event.command_name}",
                    )

                self.assertFalse(s.has_ended)

            self.assertTrue(s.has_ended)
            with self.assertRaisesRegex(InvalidOperation, "ended session"):
                await f(*args, **kw)

            # Test a session cannot be used on another client.
            async with self.client2.start_session() as s:
                # In case "f" modifies its inputs.
                args = copy.copy(args)
                kw = copy.copy(kw)
                kw["session"] = s
                with self.assertRaisesRegex(
                    InvalidOperation,
                    "Can only use session with the AsyncMongoClient that started it",
                ):
                    await f(*args, **kw)

        # No explicit session.
        for f, args, kw in ops:
            listener.reset()
            await f(*args, **kw)
            self.assertGreaterEqual(len(listener.started_events), 1)
            lsids = []
            for event in listener.started_events:
                self.assertIn(
                    "lsid",
                    event.command,
                    f"{f.__name__} sent no lsid with {event.command_name}",
                )

                lsids.append(event.command["lsid"])

            if not (sys.platform.startswith("java") or "PyPy" in sys.version):
                # Server session was returned to pool. Ignore interpreters with
                # non-deterministic GC.
                for lsid in lsids:
                    self.assertIn(
                        lsid,
                        session_ids(client),
                        f"{f.__name__} did not return implicit session to pool",
                    )

    async def test_implicit_sessions_checkout(self):
        # "To confirm that implicit sessions only allocate their server session after a
        # successful connection checkout" test from Driver Sessions Spec.
        succeeded = False
        lsid_set = set()
        listener = OvertCommandListener()
        client = await self.async_rs_or_single_client(event_listeners=[listener], maxPoolSize=1)
        # Retry up to 10 times because there is a known race condition that can cause multiple
        # sessions to be used: connection check in happens before session check in
        for _ in range(10):
            cursor = client.db.test.find({})
            ops: List[Tuple[Callable, List[Any]]] = [
                (client.db.test.find_one, [{"_id": 1}]),
                (client.db.test.delete_one, [{}]),
                (client.db.test.update_one, [{}, {"$set": {"x": 2}}]),
                (client.db.test.bulk_write, [[UpdateOne({}, {"$set": {"x": 2}})]]),
                (client.db.test.find_one_and_delete, [{}]),
                (client.db.test.find_one_and_update, [{}, {"$set": {"x": 1}}]),
                (client.db.test.find_one_and_replace, [{}, {}]),
                (client.db.test.aggregate, [[{"$limit": 1}]]),
                (client.db.test.find, []),
                (client.server_info, []),
                (client.db.aggregate, [[{"$listLocalSessions": {}}, {"$limit": 1}]]),
                (cursor.distinct, ["_id"]),
                (client.db.list_collections, []),
            ]
            tasks = []
            listener.reset()

            async def target(op, *args):
                if iscoroutinefunction(op):
                    res = await op(*args)
                else:
                    res = op(*args)
                if isinstance(res, (AsyncCursor, AsyncCommandCursor)):
                    await res.to_list()

            for op, args in ops:
                tasks.append(
                    ExceptionCatchingTask(target=target, args=[op, *args], name=op.__name__)
                )
                await tasks[-1].start()
            self.assertEqual(len(tasks), len(ops))
            for t in tasks:
                await t.join()
                self.assertIsNone(t.exc)
            lsid_set.clear()
            for i in listener.started_events:
                if i.command.get("lsid"):
                    lsid_set.add(i.command.get("lsid")["id"])
            if len(lsid_set) == 1:
                # Break on first success.
                succeeded = True
                break
        self.assertTrue(succeeded, lsid_set)

    async def test_pool_lifo(self):
        # "Pool is LIFO" test from Driver Sessions Spec.
        a = self.client.start_session()
        b = self.client.start_session()
        a_id = a.session_id
        b_id = b.session_id
        await a.end_session()
        await b.end_session()

        s = self.client.start_session()
        self.assertEqual(b_id, s.session_id)
        self.assertNotEqual(a_id, s.session_id)

        s2 = self.client.start_session()
        self.assertEqual(a_id, s2.session_id)
        self.assertNotEqual(b_id, s2.session_id)

        await s.end_session()
        await s2.end_session()

    async def test_end_session(self):
        # We test elsewhere that using an ended session throws InvalidOperation.
        client = self.client
        s = client.start_session()
        self.assertFalse(s.has_ended)
        self.assertIsNotNone(s.session_id)

        await s.end_session()
        self.assertTrue(s.has_ended)

        with self.assertRaisesRegex(InvalidOperation, "ended session"):
            s.session_id

    async def test_end_sessions(self):
        # Use a new client so that the tearDown hook does not error.
        listener = SessionTestListener()
        client = await self.async_rs_or_single_client(event_listeners=[listener])
        # Start many sessions.
        sessions = [client.start_session() for _ in range(_MAX_END_SESSIONS + 1)]
        for s in sessions:
            s._materialize()
        for s in sessions:
            await s.end_session()

        # Closing the client should end all sessions and clear the pool.
        self.assertEqual(len(client._topology._session_pool), _MAX_END_SESSIONS + 1)
        await client.close()
        self.assertEqual(len(client._topology._session_pool), 0)
        end_sessions = [e for e in listener.started_events if e.command_name == "endSessions"]
        self.assertEqual(len(end_sessions), 2)

        # Closing again should not send any commands.
        listener.reset()
        await client.close()
        self.assertEqual(len(listener.started_events), 0)

    async def test_client(self):
        client = self.client
        ops: list = [
            (client.server_info, [], {}),
            (client.list_database_names, [], {}),
            (client.drop_database, ["pymongo_test"], {}),
        ]

        await self._test_ops(client, *ops)

    async def test_database(self):
        client = self.client
        db = client.pymongo_test
        ops: list = [
            (db.command, ["ping"], {}),
            (db.create_collection, ["collection"], {}),
            (db.list_collection_names, [], {}),
            (db.validate_collection, ["collection"], {}),
            (db.drop_collection, ["collection"], {}),
            (db.dereference, [DBRef("collection", 1)], {}),
        ]
        await self._test_ops(client, *ops)

    @staticmethod
    def collection_write_ops(coll):
        """Generate database write ops for tests."""
        return [
            (coll.drop, [], {}),
            (coll.bulk_write, [[InsertOne({})]], {}),
            (coll.insert_one, [{}], {}),
            (coll.insert_many, [[{}, {}]], {}),
            (coll.replace_one, [{}, {}], {}),
            (coll.update_one, [{}, {"$set": {"a": 1}}], {}),
            (coll.update_many, [{}, {"$set": {"a": 1}}], {}),
            (coll.delete_one, [{}], {}),
            (coll.delete_many, [{}], {}),
            (coll.find_one_and_replace, [{}, {}], {}),
            (coll.find_one_and_update, [{}, {"$set": {"a": 1}}], {}),
            (coll.find_one_and_delete, [{}, {}], {}),
            (coll.rename, ["collection2"], {}),
            # Drop collection2 between tests of "rename", above.
            (coll.database.drop_collection, ["collection2"], {}),
            (coll.create_indexes, [[IndexModel("a")]], {}),
            (coll.create_index, ["a"], {}),
            (coll.drop_index, ["a_1"], {}),
            (coll.drop_indexes, [], {}),
            (coll.aggregate, [[{"$out": "aggout"}]], {}),
        ]

    async def test_collection(self):
        client = self.client
        coll = client.pymongo_test.collection

        # Test some collection methods - the rest are in test_cursor.
        ops = self.collection_write_ops(coll)
        ops.extend(
            [
                (coll.distinct, ["a"], {}),
                (coll.find_one, [], {}),
                (coll.count_documents, [{}], {}),
                (coll.list_indexes, [], {}),
                (coll.index_information, [], {}),
                (coll.options, [], {}),
                (coll.aggregate, [[]], {}),
            ]
        )

        await self._test_ops(client, *ops)

    async def test_cursor_clone(self):
        coll = self.client.pymongo_test.collection
        # Ensure some batches.
        await coll.insert_many({} for _ in range(10))
        self.addAsyncCleanup(coll.drop)

        async with self.client.start_session() as s:
            cursor = coll.find(session=s)
            self.assertIs(cursor.session, s)
            clone = cursor.clone()
            self.assertIs(clone.session, s)

        # No explicit session.
        cursor = coll.find(batch_size=2)
        await anext(cursor)
        # Session is "owned" by cursor.
        self.assertIsNone(cursor.session)
        self.assertIsNotNone(cursor._session)
        clone = cursor.clone()
        await anext(clone)
        self.assertIsNone(clone.session)
        self.assertIsNotNone(clone._session)
        self.assertIsNot(cursor._session, clone._session)
        await cursor.close()
        await clone.close()

    async def test_cursor(self):
        listener = self.listener
        client = self.client
        coll = client.pymongo_test.collection
        await coll.insert_many([{} for _ in range(1000)])

        # Test all cursor methods.
        if _IS_SYNC:
            # getitem is only supported in the synchronous API
            ops = [
                ("find", lambda session: coll.find(session=session).to_list()),
                ("getitem", lambda session: coll.find(session=session)[0]),
                ("distinct", lambda session: coll.find(session=session).distinct("a")),
                ("explain", lambda session: coll.find(session=session).explain()),
            ]
        else:
            ops = [
                ("find", lambda session: coll.find(session=session).to_list()),
                ("distinct", lambda session: coll.find(session=session).distinct("a")),
                ("explain", lambda session: coll.find(session=session).explain()),
            ]

        for name, f in ops:
            async with client.start_session() as s:
                listener.reset()
                await f(session=s)
                self.assertGreaterEqual(len(listener.started_events), 1)
                for event in listener.started_events:
                    self.assertIn(
                        "lsid",
                        event.command,
                        f"{name} sent no lsid with {event.command_name}",
                    )

                    self.assertEqual(
                        s.session_id,
                        event.command["lsid"],
                        f"{name} sent wrong lsid with {event.command_name}",
                    )

            with self.assertRaisesRegex(InvalidOperation, "ended session"):
                await f(session=s)

        # No explicit session.
        for name, f in ops:
            listener.reset()
            await f(session=None)
            event0 = listener.first_command_started()
            self.assertIn("lsid", event0.command, f"{name} sent no lsid with {event0.command_name}")

            lsid = event0.command["lsid"]

            for event in listener.started_events[1:]:
                self.assertIn(
                    "lsid", event.command, f"{name} sent no lsid with {event.command_name}"
                )

                self.assertEqual(
                    lsid,
                    event.command["lsid"],
                    f"{name} sent wrong lsid with {event.command_name}",
                )

    async def test_gridfs(self):
        client = self.client
        fs = AsyncGridFS(client.pymongo_test)

        async def new_file(session=None):
            grid_file = fs.new_file(_id=1, filename="f", session=session)
            # 1 MB, 5 chunks, to test that each chunk is fetched with same lsid.
            await grid_file.write(b"a" * 1048576)
            await grid_file.close()

        async def find(session=None):
            files = await fs.find({"_id": 1}, session=session).to_list()
            for f in files:
                await f.read()

        async def get(session=None):
            await (await fs.get(1, session=session)).read()

        async def get_version(session=None):
            await (await fs.get_version("f", session=session)).read()

        async def get_last_version(session=None):
            await (await fs.get_last_version("f", session=session)).read()

        async def find_list(session=None):
            await fs.find(session=session).to_list()

        await self._test_ops(
            client,
            (new_file, [], {}),
            (fs.put, [b"data"], {}),
            (get, [], {}),
            (get_version, [], {}),
            (get_last_version, [], {}),
            (fs.list, [], {}),
            (fs.find_one, [1], {}),
            (find_list, [], {}),
            (fs.exists, [1], {}),
            (find, [], {}),
            (fs.delete, [1], {}),
        )

    async def test_gridfs_bucket(self):
        client = self.client
        bucket = AsyncGridFSBucket(client.pymongo_test)

        async def upload(session=None):
            stream = bucket.open_upload_stream("f", session=session)
            await stream.write(b"a" * 1048576)
            await stream.close()

        async def upload_with_id(session=None):
            stream = bucket.open_upload_stream_with_id(1, "f1", session=session)
            await stream.write(b"a" * 1048576)
            await stream.close()

        async def open_download_stream(session=None):
            stream = await bucket.open_download_stream(1, session=session)
            await stream.read()

        async def open_download_stream_by_name(session=None):
            stream = await bucket.open_download_stream_by_name("f", session=session)
            await stream.read()

        async def find(session=None):
            files = await bucket.find({"_id": 1}, session=session).to_list()
            for f in files:
                await f.read()

        sio = BytesIO()

        await self._test_ops(
            client,
            (upload, [], {}),
            (upload_with_id, [], {}),
            (bucket.upload_from_stream, ["f", b"data"], {}),
            (bucket.upload_from_stream_with_id, [2, "f", b"data"], {}),
            (open_download_stream, [], {}),
            (open_download_stream_by_name, [], {}),
            (bucket.download_to_stream, [1, sio], {}),
            (bucket.download_to_stream_by_name, ["f", sio], {}),
            (find, [], {}),
            (bucket.rename, [1, "f2"], {}),
            (bucket.rename_by_name, ["f2", "f3"], {}),
            # Delete both files so _test_ops can run these operations twice.
            (bucket.delete, [1], {}),
            (bucket.delete_by_name, ["f"], {}),
        )

    async def test_gridfsbucket_cursor(self):
        client = self.client
        bucket = AsyncGridFSBucket(client.pymongo_test)

        for file_id in 1, 2:
            stream = bucket.open_upload_stream_with_id(file_id, str(file_id))
            await stream.write(b"a" * 1048576)
            await stream.close()

        async with client.start_session() as s:
            cursor = bucket.find(session=s)
            async for f in cursor:
                await f.read()

            self.assertFalse(s.has_ended)

        self.assertTrue(s.has_ended)

        # No explicit session.
        cursor = bucket.find(batch_size=1)
        files = [await cursor.next()]

        s = cursor._session
        self.assertFalse(s.has_ended)
        cursor.__del__()

        self.assertTrue(s.has_ended)
        self.assertIsNone(cursor._session)

        # Files are still valid, they use their own sessions.
        for f in files:
            await f.read()

        # Explicit session.
        async with client.start_session() as s:
            cursor = bucket.find(session=s)
            assert cursor.session is not None
            s = cursor.session
            files = await cursor.to_list()
            cursor.__del__()
            self.assertFalse(s.has_ended)

            for f in files:
                await f.read()

        for f in files:
            # Attempt to read the file again.
            await f.seek(0)
            with self.assertRaisesRegex(InvalidOperation, "ended session"):
                await f.read()

    async def test_aggregate(self):
        client = self.client
        coll = client.pymongo_test.collection

        async def agg(session=None):
            await (await coll.aggregate([], batchSize=2, session=session)).to_list()

        # With empty collection.
        await self._test_ops(client, (agg, [], {}))

        # Now with documents.
        await coll.insert_many([{} for _ in range(10)])
        self.addAsyncCleanup(coll.drop)
        await self._test_ops(client, (agg, [], {}))

    async def test_killcursors(self):
        client = self.client
        coll = client.pymongo_test.collection
        await coll.insert_many([{} for _ in range(10)])

        async def explicit_close(session=None):
            cursor = coll.find(batch_size=2, session=session)
            await anext(cursor)
            await cursor.close()

        await self._test_ops(client, (explicit_close, [], {}))

    async def test_aggregate_error(self):
        listener = self.listener
        client = self.client
        coll = client.pymongo_test.collection
        # 3.6.0 mongos only validates the aggregate pipeline when the
        # database exists.
        await coll.insert_one({})
        listener.reset()

        with self.assertRaises(OperationFailure):
            await coll.aggregate([{"$badOperation": {"bar": 1}}])

        event = listener.first_command_started()
        self.assertEqual(event.command_name, "aggregate")
        lsid = event.command["lsid"]
        # Session was returned to pool despite error.
        self.assertIn(lsid, session_ids(client))

    async def _test_cursor_helper(self, create_cursor, close_cursor):
        coll = self.client.pymongo_test.collection
        await coll.insert_many([{} for _ in range(1000)])

        cursor = await create_cursor(coll, None)
        await anext(cursor)
        # Session is "owned" by cursor.
        session = cursor._session
        self.assertIsNotNone(session)
        lsid = session.session_id
        await anext(cursor)

        # Cursor owns its session unto death.
        self.assertNotIn(lsid, session_ids(self.client))
        await close_cursor(cursor)
        self.assertIn(lsid, session_ids(self.client))

        # An explicit session is not ended by cursor.close() or list(cursor).
        async with self.client.start_session() as s:
            cursor = await create_cursor(coll, s)
            await anext(cursor)
            await close_cursor(cursor)
            self.assertFalse(s.has_ended)
            lsid = s.session_id

        self.assertTrue(s.has_ended)
        self.assertIn(lsid, session_ids(self.client))

    async def test_cursor_close(self):
        async def find(coll, session):
            return coll.find(session=session)

        await self._test_cursor_helper(find, lambda cursor: cursor.close())

    async def test_command_cursor_close(self):
        async def aggregate(coll, session):
            return await coll.aggregate([], session=session)

        await self._test_cursor_helper(aggregate, lambda cursor: cursor.close())

    async def test_cursor_del(self):
        async def find(coll, session):
            return coll.find(session=session)

        async def delete(cursor):
            return cursor.__del__()

        await self._test_cursor_helper(find, delete)

    async def test_command_cursor_del(self):
        async def aggregate(coll, session):
            return await coll.aggregate([], session=session)

        async def delete(cursor):
            return cursor.__del__()

        await self._test_cursor_helper(aggregate, delete)

    async def test_cursor_exhaust(self):
        async def find(coll, session):
            return coll.find(session=session)

        await self._test_cursor_helper(find, lambda cursor: cursor.to_list())

    async def test_command_cursor_exhaust(self):
        async def aggregate(coll, session):
            return await coll.aggregate([], session=session)

        await self._test_cursor_helper(aggregate, lambda cursor: cursor.to_list())

    async def test_cursor_limit_reached(self):
        async def find(coll, session):
            return coll.find(limit=4, batch_size=2, session=session)

        await self._test_cursor_helper(
            find,
            lambda cursor: cursor.to_list(),
        )

    async def test_command_cursor_limit_reached(self):
        async def aggregate(coll, session):
            return await coll.aggregate([], batchSize=900, session=session)

        await self._test_cursor_helper(
            aggregate,
            lambda cursor: cursor.to_list(),
        )

    async def _test_unacknowledged_ops(self, client, *ops):
        listener = client.options.event_listeners[0]

        for f, args, kw in ops:
            async with client.start_session() as s:
                listener.reset()
                # In case "f" modifies its inputs.
                args = copy.copy(args)
                kw = copy.copy(kw)
                kw["session"] = s
                with self.assertRaises(
                    ConfigurationError, msg=f"{f.__name__} did not raise ConfigurationError"
                ):
                    await f(*args, **kw)
                if f.__name__ == "create_collection":
                    # create_collection runs listCollections first.
                    event = listener.started_events.pop(0)
                    self.assertEqual("listCollections", event.command_name)
                    self.assertIn(
                        "lsid",
                        event.command,
                        f"{f.__name__} sent no lsid with {event.command_name}",
                    )

                # Should not run any command before raising an error.
                self.assertFalse(listener.started_events, f"{f.__name__} sent command")

            self.assertTrue(s.has_ended)

        # Unacknowledged write without a session does not send an lsid.
        for f, args, kw in ops:
            listener.reset()
            await f(*args, **kw)
            self.assertGreaterEqual(len(listener.started_events), 1)

            if f.__name__ == "create_collection":
                # create_collection runs listCollections first.
                event = listener.started_events.pop(0)
                self.assertEqual("listCollections", event.command_name)
                self.assertIn(
                    "lsid",
                    event.command,
                    f"{f.__name__} sent no lsid with {event.command_name}",
                )

            for event in listener.started_events:
                self.assertNotIn(
                    "lsid", event.command, f"{f.__name__} sent lsid with {event.command_name}"
                )

    async def test_unacknowledged_writes(self):
        # Ensure the collection exists.
        await self.client.pymongo_test.test_unacked_writes.insert_one({})
        client = await self.async_rs_or_single_client(w=0, event_listeners=[self.listener])
        db = client.pymongo_test
        coll = db.test_unacked_writes
        ops: list = [
            (client.drop_database, [db.name], {}),
            (db.create_collection, ["collection"], {}),
            (db.drop_collection, ["collection"], {}),
        ]
        ops.extend(self.collection_write_ops(coll))
        await self._test_unacknowledged_ops(client, *ops)

        async def drop_db():
            try:
                await self.client.drop_database(db.name)
                return True
            except OperationFailure as exc:
                # Try again on BackgroundOperationInProgressForDatabase and
                # BackgroundOperationInProgressForNamespace.
                if exc.code in (12586, 12587):
                    return False
                raise

        await async_wait_until(drop_db, "dropped database after w=0 writes")

    async def test_snapshot_incompatible_with_causal_consistency(self):
        async with self.client.start_session(causal_consistency=False, snapshot=False):
            pass
        async with self.client.start_session(causal_consistency=False, snapshot=True):
            pass
        async with self.client.start_session(causal_consistency=True, snapshot=False):
            pass
        with self.assertRaises(ConfigurationError):
            async with self.client.start_session(causal_consistency=True, snapshot=True):
                pass

    async def test_session_not_copyable(self):
        client = self.client
        async with client.start_session() as s:
            self.assertRaises(TypeError, lambda: copy.copy(s))


class TestCausalConsistency(AsyncUnitTest):
    listener: SessionTestListener
    client: AsyncMongoClient

    @async_client_context.require_sessions
    async def asyncSetUp(self):
        await super().asyncSetUp()
        self.listener = SessionTestListener()
        self.client = await self.async_rs_or_single_client(event_listeners=[self.listener])

    @async_client_context.require_no_standalone
    async def test_core(self):
        async with self.client.start_session() as sess:
            self.assertIsNone(sess.cluster_time)
            self.assertIsNone(sess.operation_time)
            self.listener.reset()
            await self.client.pymongo_test.test.find_one(session=sess)
            started = self.listener.started_events[0]
            cmd = started.command
            self.assertIsNone(cmd.get("readConcern"))
            op_time = sess.operation_time
            self.assertIsNotNone(op_time)
            succeeded = self.listener.succeeded_events[0]
            reply = succeeded.reply
            self.assertEqual(op_time, reply.get("operationTime"))

            # No explicit session
            await self.client.pymongo_test.test.insert_one({})
            self.assertEqual(sess.operation_time, op_time)
            self.listener.reset()
            try:
                await self.client.pymongo_test.command("doesntexist", session=sess)
            except:
                pass
            failed = self.listener.failed_events[0]
            failed_op_time = failed.failure.get("operationTime")
            # Some older builds of MongoDB 3.5 / 3.6 return None for
            # operationTime when a command fails. Make sure we don't
            # change operation_time to None.
            if failed_op_time is None:
                self.assertIsNotNone(sess.operation_time)
            else:
                self.assertEqual(sess.operation_time, failed_op_time)

            async with self.client.start_session() as sess2:
                self.assertIsNone(sess2.cluster_time)
                self.assertIsNone(sess2.operation_time)
                self.assertRaises(TypeError, sess2.advance_cluster_time, 1)
                self.assertRaises(ValueError, sess2.advance_cluster_time, {})
                self.assertRaises(TypeError, sess2.advance_operation_time, 1)
                # No error
                assert sess.cluster_time is not None
                assert sess.operation_time is not None
                sess2.advance_cluster_time(sess.cluster_time)
                sess2.advance_operation_time(sess.operation_time)
                self.assertEqual(sess.cluster_time, sess2.cluster_time)
                self.assertEqual(sess.operation_time, sess2.operation_time)

    async def _test_reads(self, op, exception=None):
        coll = self.client.pymongo_test.test
        async with self.client.start_session() as sess:
            await coll.find_one({}, session=sess)
            operation_time = sess.operation_time
            self.assertIsNotNone(operation_time)
            self.listener.reset()
            if exception:
                with self.assertRaises(exception):
                    await op(coll, sess)
            else:
                await op(coll, sess)
            act = (
                self.listener.started_events[0]
                .command.get("readConcern", {})
                .get("afterClusterTime")
            )
            self.assertEqual(operation_time, act)

    @async_client_context.require_no_standalone
    async def test_reads(self):
        # Make sure the collection exists.
        await self.client.pymongo_test.test.insert_one({})

        async def aggregate(coll, session):
            return await (await coll.aggregate([], session=session)).to_list()

        async def aggregate_raw(coll, session):
            return await (await coll.aggregate_raw_batches([], session=session)).to_list()

        async def find_raw(coll, session):
            return await coll.find_raw_batches({}, session=session).to_list()

        await self._test_reads(aggregate)
        await self._test_reads(lambda coll, session: coll.find({}, session=session).to_list())
        await self._test_reads(lambda coll, session: coll.find_one({}, session=session))
        await self._test_reads(lambda coll, session: coll.count_documents({}, session=session))
        await self._test_reads(lambda coll, session: coll.distinct("foo", session=session))
        await self._test_reads(aggregate_raw)
        await self._test_reads(find_raw)

        with self.assertRaises(ConfigurationError):
            await self._test_reads(
                lambda coll, session: coll.estimated_document_count(session=session)
            )

    async def _test_writes(self, op):
        coll = self.client.pymongo_test.test
        async with self.client.start_session() as sess:
            await op(coll, sess)
            operation_time = sess.operation_time
            self.assertIsNotNone(operation_time)
            self.listener.reset()
            await coll.find_one({}, session=sess)
            act = (
                self.listener.started_events[0]
                .command.get("readConcern", {})
                .get("afterClusterTime")
            )
            self.assertEqual(operation_time, act)

    @async_client_context.require_no_standalone
    async def test_writes(self):
        await self._test_writes(
            lambda coll, session: coll.bulk_write([InsertOne[dict]({})], session=session)
        )
        await self._test_writes(lambda coll, session: coll.insert_one({}, session=session))
        await self._test_writes(lambda coll, session: coll.insert_many([{}], session=session))
        await self._test_writes(
            lambda coll, session: coll.replace_one({"_id": 1}, {"x": 1}, session=session)
        )
        await self._test_writes(
            lambda coll, session: coll.update_one({}, {"$set": {"X": 1}}, session=session)
        )
        await self._test_writes(
            lambda coll, session: coll.update_many({}, {"$set": {"x": 1}}, session=session)
        )
        await self._test_writes(lambda coll, session: coll.delete_one({}, session=session))
        await self._test_writes(lambda coll, session: coll.delete_many({}, session=session))
        await self._test_writes(
            lambda coll, session: coll.find_one_and_replace({"x": 1}, {"y": 1}, session=session)
        )
        await self._test_writes(
            lambda coll, session: coll.find_one_and_update(
                {"y": 1}, {"$set": {"x": 1}}, session=session
            )
        )
        await self._test_writes(
            lambda coll, session: coll.find_one_and_delete({"x": 1}, session=session)
        )
        await self._test_writes(lambda coll, session: coll.create_index("foo", session=session))
        await self._test_writes(
            lambda coll, session: coll.create_indexes(
                [IndexModel([("bar", ASCENDING)])], session=session
            )
        )
        await self._test_writes(lambda coll, session: coll.drop_index("foo_1", session=session))
        await self._test_writes(lambda coll, session: coll.drop_indexes(session=session))

    async def _test_no_read_concern(self, op):
        coll = self.client.pymongo_test.test
        async with self.client.start_session() as sess:
            await coll.find_one({}, session=sess)
            operation_time = sess.operation_time
            self.assertIsNotNone(operation_time)
            self.listener.reset()
            await op(coll, sess)
            rc = self.listener.started_events[0].command.get("readConcern")
            self.assertIsNone(rc)

    @async_client_context.require_no_standalone
    async def test_writes_do_not_include_read_concern(self):
        await self._test_no_read_concern(
            lambda coll, session: coll.bulk_write([InsertOne[dict]({})], session=session)
        )
        await self._test_no_read_concern(lambda coll, session: coll.insert_one({}, session=session))
        await self._test_no_read_concern(
            lambda coll, session: coll.insert_many([{}], session=session)
        )
        await self._test_no_read_concern(
            lambda coll, session: coll.replace_one({"_id": 1}, {"x": 1}, session=session)
        )
        await self._test_no_read_concern(
            lambda coll, session: coll.update_one({}, {"$set": {"X": 1}}, session=session)
        )
        await self._test_no_read_concern(
            lambda coll, session: coll.update_many({}, {"$set": {"x": 1}}, session=session)
        )
        await self._test_no_read_concern(lambda coll, session: coll.delete_one({}, session=session))
        await self._test_no_read_concern(
            lambda coll, session: coll.delete_many({}, session=session)
        )
        await self._test_no_read_concern(
            lambda coll, session: coll.find_one_and_replace({"x": 1}, {"y": 1}, session=session)
        )
        await self._test_no_read_concern(
            lambda coll, session: coll.find_one_and_update(
                {"y": 1}, {"$set": {"x": 1}}, session=session
            )
        )
        await self._test_no_read_concern(
            lambda coll, session: coll.find_one_and_delete({"x": 1}, session=session)
        )
        await self._test_no_read_concern(
            lambda coll, session: coll.create_index("foo", session=session)
        )
        await self._test_no_read_concern(
            lambda coll, session: coll.create_indexes(
                [IndexModel([("bar", ASCENDING)])], session=session
            )
        )
        await self._test_no_read_concern(
            lambda coll, session: coll.drop_index("foo_1", session=session)
        )
        await self._test_no_read_concern(lambda coll, session: coll.drop_indexes(session=session))

        # Not a write, but explain also doesn't support readConcern.
        await self._test_no_read_concern(
            lambda coll, session: coll.find({}, session=session).explain()
        )

    @async_client_context.require_no_standalone
    async def test_get_more_does_not_include_read_concern(self):
        coll = self.client.pymongo_test.test
        async with self.client.start_session() as sess:
            await coll.find_one({}, session=sess)
            operation_time = sess.operation_time
            self.assertIsNotNone(operation_time)
            await coll.insert_many([{}, {}])
            cursor = coll.find({}).batch_size(1)
            await anext(cursor)
            self.listener.reset()
            await cursor.to_list()
            started = self.listener.started_events[0]
            self.assertEqual(started.command_name, "getMore")
            self.assertIsNone(started.command.get("readConcern"))

    async def test_session_not_causal(self):
        async with self.client.start_session(causal_consistency=False) as s:
            await self.client.pymongo_test.test.insert_one({}, session=s)
            self.listener.reset()
            await self.client.pymongo_test.test.find_one({}, session=s)
            act = (
                self.listener.started_events[0]
                .command.get("readConcern", {})
                .get("afterClusterTime")
            )
            self.assertIsNone(act)

    @async_client_context.require_standalone
    async def test_server_not_causal(self):
        async with self.client.start_session(causal_consistency=True) as s:
            await self.client.pymongo_test.test.insert_one({}, session=s)
            self.listener.reset()
            await self.client.pymongo_test.test.find_one({}, session=s)
            act = (
                self.listener.started_events[0]
                .command.get("readConcern", {})
                .get("afterClusterTime")
            )
            self.assertIsNone(act)

    @async_client_context.require_no_standalone
    async def test_read_concern(self):
        async with self.client.start_session(causal_consistency=True) as s:
            coll = self.client.pymongo_test.test
            await coll.insert_one({}, session=s)
            self.listener.reset()
            await coll.find_one({}, session=s)
            read_concern = self.listener.started_events[0].command.get("readConcern")
            self.assertIsNotNone(read_concern)
            self.assertIsNone(read_concern.get("level"))
            self.assertIsNotNone(read_concern.get("afterClusterTime"))

            coll = coll.with_options(read_concern=ReadConcern("majority"))
            self.listener.reset()
            await coll.find_one({}, session=s)
            read_concern = self.listener.started_events[0].command.get("readConcern")
            self.assertIsNotNone(read_concern)
            self.assertEqual(read_concern.get("level"), "majority")
            self.assertIsNotNone(read_concern.get("afterClusterTime"))

    @async_client_context.require_no_standalone
    async def test_cluster_time_with_server_support(self):
        await self.client.pymongo_test.test.insert_one({})
        self.listener.reset()
        await self.client.pymongo_test.test.find_one({})
        after_cluster_time = self.listener.started_events[0].command.get("$clusterTime")
        self.assertIsNotNone(after_cluster_time)

    @async_client_context.require_standalone
    async def test_cluster_time_no_server_support(self):
        await self.client.pymongo_test.test.insert_one({})
        self.listener.reset()
        await self.client.pymongo_test.test.find_one({})
        after_cluster_time = self.listener.started_events[0].command.get("$clusterTime")
        self.assertIsNone(after_cluster_time)


class TestClusterTime(AsyncIntegrationTest):
    async def asyncSetUp(self):
        await super().asyncSetUp()
        if "$clusterTime" not in (await async_client_context.hello):
            raise SkipTest("$clusterTime not supported")

    # Sessions prose test: 3) $clusterTime in commands
    async def test_cluster_time(self):
        listener = SessionTestListener()
        client = await self.async_rs_or_single_client(event_listeners=[listener])
        collection = client.pymongo_test.collection
        # Prepare for tests of find() and aggregate().
        await collection.insert_many([{} for _ in range(10)])
        self.addAsyncCleanup(collection.drop)
        self.addAsyncCleanup(client.pymongo_test.collection2.drop)

        async def rename_and_drop():
            # Ensure collection exists.
            await collection.insert_one({})
            await collection.rename("collection2")
            await client.pymongo_test.collection2.drop()

        async def insert_and_find():
            cursor = collection.find().batch_size(1)
            for _ in range(10):
                # Advance the cluster time.
                await collection.insert_one({})
                await anext(cursor)

            await cursor.close()

        async def insert_and_aggregate():
            cursor = (await collection.aggregate([], batchSize=1)).batch_size(1)
            for _ in range(5):
                # Advance the cluster time.
                await collection.insert_one({})
                await anext(cursor)

            await cursor.close()

        async def aggregate():
            await (await collection.aggregate([])).to_list()

        ops = [
            # Tests from Driver Sessions Spec.
            ("ping", lambda: client.admin.command("ping")),
            ("aggregate", lambda: aggregate()),
            ("find", lambda: collection.find().to_list()),
            ("insert_one", lambda: collection.insert_one({})),
            # Additional PyMongo tests.
            ("insert_and_find", insert_and_find),
            ("insert_and_aggregate", insert_and_aggregate),
            ("update_one", lambda: collection.update_one({}, {"$set": {"x": 1}})),
            ("update_many", lambda: collection.update_many({}, {"$set": {"x": 1}})),
            ("delete_one", lambda: collection.delete_one({})),
            ("delete_many", lambda: collection.delete_many({})),
            ("bulk_write", lambda: collection.bulk_write([InsertOne({})])),
            ("rename_and_drop", rename_and_drop),
        ]

        for _name, f in ops:
            listener.reset()
            # Call f() twice, insert to advance clusterTime, call f() again.
            await f()
            await f()
            await collection.insert_one({})
            await f()

            self.assertGreaterEqual(len(listener.started_events), 1)
            for i, event in enumerate(listener.started_events):
                self.assertIn(
                    "$clusterTime",
                    event.command,
                    f"{f.__name__} sent no $clusterTime with {event.command_name}",
                )

                if i > 0:
                    succeeded = listener.succeeded_events[i - 1]
                    self.assertIn(
                        "$clusterTime",
                        succeeded.reply,
                        f"{f.__name__} received no $clusterTime with {succeeded.command_name}",
                    )

                    self.assertTrue(
                        event.command["$clusterTime"]["clusterTime"]
                        >= succeeded.reply["$clusterTime"]["clusterTime"],
                        f"{f.__name__} sent wrong $clusterTime with {event.command_name}",
                    )

    # Sessions prose test: 20) Drivers do not gossip `$clusterTime` on SDAM commands
    async def test_cluster_time_not_used_by_sdam(self):
        heartbeat_listener = HeartbeatEventListener()
        cmd_listener = OvertCommandListener()
        with client_knobs(min_heartbeat_interval=0.01):
            c1 = await self.async_single_client(
                event_listeners=[heartbeat_listener, cmd_listener], heartbeatFrequencyMS=10
            )
            cluster_time = (await c1.admin.command({"ping": 1}))["$clusterTime"]
            self.assertEqual(c1._topology.max_cluster_time(), cluster_time)

            # Advance the server's $clusterTime by performing an insert via another client.
            await self.db.test.insert_one({"advance": "$clusterTime"})
            # Wait until the client C1 processes the next pair of SDAM heartbeat started + succeeded events.
            heartbeat_listener.reset()

            async def next_heartbeat():
                events = heartbeat_listener.events
                for i in range(len(events) - 1):
                    if isinstance(events[i], monitoring.ServerHeartbeatStartedEvent):
                        if isinstance(events[i + 1], monitoring.ServerHeartbeatSucceededEvent):
                            return True
                return False

            await async_wait_until(
                next_heartbeat, "never found pair of heartbeat started + succeeded events"
            )
            # Assert that C1's max $clusterTime is still the same and has not been updated by SDAM.
            cmd_listener.reset()
            await c1.admin.command({"ping": 1})
            started = cmd_listener.started_events[0]
            self.assertEqual(started.command_name, "ping")
            self.assertEqual(started.command["$clusterTime"], cluster_time)


if __name__ == "__main__":
    unittest.main()
